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Atmosphere/libraries/libvapours/include/vapours/util/util_bitutil.hpp
SciresM 81f91803ec
Implement support for parsing/interacting with NCAs. (#942)
* fs: implement support for interacting with ncas.

* spl: extend to use virtual keyslots
2020-05-11 15:04:51 -07:00

218 lines
7.2 KiB
C++

/*
* Copyright (c) 2018-2020 Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <vapours/common.hpp>
#include <vapours/assert.hpp>
namespace ams::util {
namespace impl {
template<size_t N>
constexpr inline size_t Log2 = Log2<N / 2> + 1;
template<>
constexpr inline size_t Log2<1> = 0;
}
template <typename T> requires std::integral<T>
class BitsOf {
private:
static constexpr ALWAYS_INLINE int GetLsbPos(T v) {
return __builtin_ctzll(static_cast<u64>(v));
}
T value;
public:
/* Note: GCC has a bug in constant-folding here. Workaround: wrap entire caller with constexpr. */
constexpr ALWAYS_INLINE BitsOf(T value = T(0u)) : value(value) {
/* ... */
}
constexpr ALWAYS_INLINE bool operator==(const BitsOf &other) const {
return this->value == other.value;
}
constexpr ALWAYS_INLINE bool operator!=(const BitsOf &other) const {
return this->value != other.value;
}
constexpr ALWAYS_INLINE int operator*() const {
return GetLsbPos(this->value);
}
constexpr ALWAYS_INLINE BitsOf &operator++() {
this->value &= ~(T(1u) << GetLsbPos(this->value));
return *this;
}
constexpr ALWAYS_INLINE BitsOf &operator++(int) {
BitsOf ret(this->value);
++(*this);
return ret;
}
constexpr ALWAYS_INLINE BitsOf begin() const {
return *this;
}
constexpr ALWAYS_INLINE BitsOf end() const {
return BitsOf(T(0u));
}
};
template<typename T = u64, typename ...Args> requires std::integral<T>
constexpr ALWAYS_INLINE T CombineBits(Args... args) {
return (... | (T(1u) << args));
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T ResetLeastSignificantOneBit(T x) {
return x & (x - 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T SetLeastSignificantZeroBit(T x) {
return x | (x + 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T LeastSignificantOneBit(T x) {
return x & ~(x - 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T LeastSignificantZeroBit(T x) {
return ~x & (x + 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T ResetTrailingOnes(T x) {
return x & (x + 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T SetTrailingZeros(T x) {
return x | (x - 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T MaskTrailingZeros(T x) {
return (~x) & (x - 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T MaskTrailingOnes(T x) {
return ~((~x) | (x + 1));
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T MaskTrailingZerosAndLeastSignificantOneBit(T x) {
return x ^ (x - 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T MaskTrailingOnesAndLeastSignificantZeroBit(T x) {
return x ^ (x + 1);
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE int PopCount(T x) {
/* TODO: C++20 std::bit_cast */
using U = typename std::make_unsigned<T>::type;
U u = static_cast<U>(x);
if (std::is_constant_evaluated()) {
/* https://en.wikipedia.org/wiki/Hamming_weight */
constexpr U m1 = U(-1) / 0x03;
constexpr U m2 = U(-1) / 0x05;
constexpr U m4 = U(-1) / 0x11;
u = static_cast<U>(u - ((u >> 1) & m1));
u = static_cast<U>((u & m2) + ((u >> 2) & m2));
u = static_cast<U>((u + (u >> 4)) & m4);
for (size_t i = 0; i < impl::Log2<sizeof(T)>; ++i) {
const size_t shift = (0x1 << i) * BITSIZEOF(u8);
u += u >> shift;
}
return static_cast<int>(u & 0x7Fu);
} else {
if constexpr (std::is_same<U, unsigned long long>::value) {
return __builtin_popcountll(u);
} else if constexpr (std::is_same<U, unsigned long>::value) {
return __builtin_popcountl(u);
} else {
static_assert(sizeof(U) <= sizeof(unsigned int));
return __builtin_popcount(static_cast<unsigned int>(u));
}
}
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE int CountLeadingZeros(T x) {
if (std::is_constant_evaluated()) {
for (size_t i = 0; i < impl::Log2<BITSIZEOF(T)>; ++i) {
const size_t shift = (0x1 << i);
x |= x >> shift;
}
return PopCount(static_cast<T>(~x));
} else {
/* TODO: C++20 std::bit_cast */
using U = typename std::make_unsigned<T>::type;
const U u = static_cast<U>(x);
if constexpr (std::is_same<U, unsigned long long>::value) {
return __builtin_clzll(u);
} else if constexpr (std::is_same<U, unsigned long>::value) {
return __builtin_clzl(u);
} else if constexpr(std::is_same<U, unsigned int>::value) {
return __builtin_clz(u);
} else {
static_assert(sizeof(U) < sizeof(unsigned int));
constexpr size_t BitDiff = BITSIZEOF(unsigned int) - BITSIZEOF(U);
return __builtin_clz(static_cast<unsigned int>(u)) - BitDiff;
}
}
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE bool IsPowerOfTwo(T x) {
return x > 0 && ResetLeastSignificantOneBit(x) == 0;
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T CeilingPowerOfTwo(T x) {
AMS_ASSERT(x > 0);
return T(1) << (BITSIZEOF(T) - CountLeadingZeros(T(x - 1)));
}
template<typename T> requires std::integral<T>
constexpr ALWAYS_INLINE T FloorPowerOfTwo(T x) {
AMS_ASSERT(x > 0);
return T(1) << (BITSIZEOF(T) - CountLeadingZeros(x) - 1);
}
template<typename T, typename U>
constexpr ALWAYS_INLINE T DivideUp(T v, U d) {
using Unsigned = typename std::make_unsigned<U>::type;
const Unsigned add = static_cast<Unsigned>(d) - 1;
return static_cast<T>((v + add) / d);
}
}